NORMAL (9) Body Surface Area (5) Discriminant Analysis (4) MI-DIAGNOSTIC (4) REVIEW (4) DISP-REPOL (4) DESCRIPTIVE (3) Retrospective Studies (3) Heart/physiology (3) ARRHYTHMIA-PREDICTION (3) INVASIVE-CONTROL (3) NORM-ACT (3) Thorax (2) Pattern Recognition (2) LATE-POTENTIALS (2) Myocardial Infarction/diagnosis (2) Wolff-Parkinson-White Syndrome/diagnosis (2) ARVD (2) LEAD-SYSTEMS (2) Heart Ventricles/physiopathology (2) Prospective Studies (2) CHILD (1) Membrane Potentials (1) SINGLE-MOVING-DIPOLE (1) NROMAL (1) Action Potentials (1) Heart Block/diagnosis (1) STRESS-TEST (1) Heart Rate (1) INFANT (1) Cardiac Pacing, Artificial/methods (1) Heart Ventricles/pathology/physiopathology (1) PACE-MAPPING (1) VEB (1) THORAX-CONDUCTOR (1) RESPIRATION (1) NEW-DIRECTION (1) Myocardium/pathology (1) LVH (1) Age Factors (1) Sex Factors (1) Rest (1) ISCHEMIA-DIAGNOSTIC (1) REPOLARIZATION (1) ACTIVATION-RECOVERY-INTERVALS (1) TECHNICAL (1) ISCHRONE-MAPS (1) Ventricular Function/physiology (1) Fibrinolytic Agents (1) Heart Catheterization (1) Endocardium/physiology (1) STIMULUS-MAPPING (1) Heart Ventricles (1) Japan (1) Sex Characteristics (1) DEPARTURE-MAPS (1) Heart Conduction System/physiopathology (1) Prognosis (1) Bundle-Branch Block/diagnosis (1) WILSON-CENTRAL-TERMINAL (1) Echocardiography (1) P-WAVE (1) Tachycardia, Ventricular/etiology (1) Fourier Analysis (1) Wolff-Parkinson-White Syndrome/diagnosis/physiopathology (1) Tachycardia, Ventricular/diagnosis/physiopathology (1) Signal Processing, Computer-Assisted/instrumentation (1) Cardiac Pacing, Artificial (1) Myocardial Infarction/physiopathology (1) Coronary Disease/physiopathology (1) NEUROVEGETATIVE (1) Computer Simulation (1) Monitoring, Physiologic (1) Postoperative Period (1) VENTRICULECTOMY (1) VAR-NORM-ACT (1) Heart Ventricles/physiology (1)
J Electrocardiol 1981 Jul;14(3):249-60.
Electrocardiographic body surface potential maps of the QRS of normal
children.
Leibman J, Thomas CW, Rudy Y, Plonsey R,
NIL
Nippon Naika Gakkai Zasshi 1983 Jan 10;72(1):25-37.
[Clinical application of the analysis of cardiac dipole estimated from the
body surface potential mapping-normal cases]
Tsunakawa H,
NIL
Taiwan Yi Xue Hui Za Zhi 1985 Aug;84(8):882-97.
Body surface potential maps of the normal Chinese adults.
Tseng YZ, Tseng CD, Wu TL,
NIL
Nippon Naika Gakkai Zasshi 1985 Sep;74(9):1191-204.
[Experimental basis and clinical application of body surface isopotential
map]
Kazuo Y,
NIL
J Electrocardiol 1985 Oct;18(4):351-60.
Exercise electrocardiographic mapping in normal subjects.
McPherson DD, Horacek BM, Sutherland DJ, Armstrong CS, Spencer CA, Montague TJ,
NIL
Am J Cardiol 1987 Dec 1;60(16):1230-8.
Qualitative and quantitative analysis of characteristic body surface
potential map features in anterior and inferior myocardial infarction.
Kornreich F, Montague TJ, Kavadias M, Segers J, Rautaharju PM, Horacek MB, Taccardi B,
Unit for Cardiovascular Research and Engineering, Free University of
Brussels, Belgium.
J Electrocardiol 1988 Jan;21(1):1-14.
Newer data on the configuration and variability ranges of body surface
maps in a sample of normal subjects.
Stilli D, Musso E, Barone P, Ciarlini P, Macchi E, Regoliosi G, Dei Cas L, Manca C, Visioli O, Bo M, et al.,
Istituto di Fisiologia Generale, Universita di Parma, Italy.
J Electrocardiol 1988 Jan;21(1):15-23.
Body surface isopotential maps during the first week of life.
Suzumiya H, Matsuoka Y, Hayakawa K,
Department of Pediatrics, Miyazaki Medical College, Japan.
J Electrocardiol 1988 Apr;21(2):137-46.
Sites of origin of ventricular premature beats in patients with and
without cardiovascular disease evaluated by body surface mapping.
Hayashi H, Watabe S, Takami K, Yabe S, Uematsu H, Mizutani M, Saito H,
Department of Internal Medicine, Nagoya University Hospital, Japan.
J Electrocardiol 1988 Aug;21(3):263-71.
Respiration and the ECG: a study using body surface potential maps.
Amoore JN, Rudy Y, Liebman J,
Department of Biomedical Engineering, UCT Medical School, Observatory,
Cape, South Africa.
J Electrocardiol 1989;22 Suppl:169-78.
Multigroup diagnosis of body surface potential maps.
Kornreich F, Montague TJ, Rautaharju PM, Kavadias M, Horacek MB, Taccardi B,
Unit for Cardiovascular Research and Engineering, Free University,
Brussels, Belgium.
Circulation 1989 Feb;79(2):312-23.
Improved diagnostic performance on the severity of left ventricular
hypertrophy with body surface mapping.
Yamaki M, Ikeda K, Kubota I, Nakamura K, Hanashima K, Tsuiki K, Yasui S,
First Department of Internal Medicine, Yamagata University School of
Medicine, Japan.
Circulation 1989 May;79(5):1077-83.
Sources of variability in normal body surface potential maps.
Kozmann G, Lux RL, Green LS,
Nora Eccles Harrison Cardiovascular Research and Training Institute,
University of Utah, School of Medicine, Salt Lake City 84112.
Circulation 1989 Jul;80(1):120-7.
Detection of diseased coronary artery by exercise ST-T maps in patients
with effort angina pectoris, single-vessel disease, and normal ST-T wave
on electrocardiogram at rest.
Kubota I, Hanashima K, Ikeda K, Tsuiki K, Yasui S,
First Department of Internal Medicine, Yamagata University School of
Medicine, Japan.
Circulation 1990 Dec;82(6):2084-92.
Body surface mapping of high-frequency components in the terminal portion
during QRS complex for the prediction of ventricular tachycardia in
patients with previous myocardial infarction.
Shibata T, Kubota I, Ikeda K, Tsuiki K, Yasui S,
First Department of Internal Medicine, Yamagata University School of
Medicine, Japan.
Circulation 1992 May;85(5):1768-74.
Relation between recovery sequence estimated from body surface potentials
and T wave shape in patients with negative T waves and normal subjects.
Yamaki M, Kubota I, Endo T, Hosoya Y, Ikeda K, Tomoike H,
First Department of Internal Medicine, Yamagata University School of
Medicine, Japan.
Pol Arch Med Wewn 1992 Aug-Sep;88(2-3):141-5.
Statistical interpretation of body surface potential maps; aspects of
adequate group representation and parameter selection.
Kozmann G,
Research Laboratory for Biomedical Engineering, Hungarian Academy of
Sciences, Budapest.
Pol Arch Med Wewn 1992 Aug-Sep;88(2-3):90-102.
[Localization of infarction of the anterior and inferior myocardial wall
by body surface mapping]
Gornicki M, Jagielski J, Swiderska-Blonska T,
Katedra i Zaklad Patofizjologii Akademii Medycznej, Wroclawiu.
Physiol Res 1993;42(2):99-102.
Body surface isochrone maps of peak R in normal adolescent girls.
Kozlikova K, Hulin I, Kneppo P, Sapakova E, Bakosova M, Molnarova Z,
Institute of Pathological Physiology, School of Medicine, Comenius
University Bratislava.
Jpn Heart J 1993 Mar;34(2):159-70.
Body surface potential maps of ventricular depolarization in normal
adults.
Tseng YZ, Tseng CD, Lo HM, Chiang FT, Hsu KL, Wu TL,
Department of Internal Medicine, National Taiwan University Hospital,
Taipei, Republic of China.
Circulation 1993 Mar;87(3):773-82.
Body surface potential mapping of ST segment changes in acute myocardial
infarction. Implications for ECG enrollment criteria for thrombolytic
therapy.
Kornreich F, Montague TJ, Rautaharju PM,
Unit for Cardiovascular Research and Engineering, Free University
Brussels, Belgium.
Methods Inf Med 1994 Mar;33(1):72-5.
Portable cardiac mapping assessment of acute ischaemic injury.
Anderson JM, Dempsey GJ, Wright GT, Cullen C, Crawley M, McAdams ET, McLaughlin J, MacKenzie G, Adgey AA,
N. Ireland Bio-Engineering Centre, University of Ulster.
Circulation 1994 Jul;90(1):254-63.
Enhanced detection of distinguishing features in signal-averaged
electrocardiograms from patients with ventricular tachycardia by combined
spatial and spectral analyses of entire cardiac cycle.
Kavesh NG, Cain ME, Ambos HD, Arthur RM,
Cardiovascular Division, Washington University School of Medicine, St
Louis, MO 63110.
Circulation 1994 Jul;90(1):462-8.
Resolution of pace mapping stimulus site separation using body surface
potentials.
Green LS, Lux RL, Ershler PR, Freedman RA, Marcus FI, Gear K,
Nora Eccles Harrison Cardiovascular Research and Training Institute,
University of Utah, Salt Lake City 84112.
Physiol Meas 1994 Aug;15(3):235-42.
Simplified body-surface electrocardiographic maps with depolarization
magnitude and direction.
Murray A, Allen J, Allen V, Clayton RH, McLaughlin NB, Relf GT,
Regional Medical Physics Department, Freeman Hospital, Newcastle upon
Tyne, UK.
Nippon Rinsho 1995 Jan;53(1):61-6.
[Data base for body surface potential maps of normal populations--normal
data base by the Japanese Circulation Society Task Force Committee on
Criteria for Body Surface Mapping]
Ikeda K,
First Department of Internal Medicine, Yamagata University School of
Medicine.
Nippon Rinsho 1995 Jan;53(1):67-73.
[Dipole analysis of data base for body surface potential maps of normal
population]
Kusahana Y, Nishiyama G, Tsunakawa H, Mashima S, Okamoto Y,
Division of Cardiology, Showa University Fujigaoka Hospital.
Nippon Rinsho 1995 Jan;53(1):74-81.
[Concept of activation recovery interval and clinical usefulness of body
surface recovery time and recovery time isochrone map]
Shimizu W,
Department of Internal Medicine, National Cardiovascular Center.
Physiol Meas 1995 Nov;16(4):239-52.
Variability maps of body surface ECG in normal subjects.
Gramatikov BI,
Department of Biomedical Engineering (CLBMI), Bulgarian Academy of
Sciences, Sofia Bulgaria.
J Invasive Cardiol 1995 Dec;7(9):265-74.
Current clinical utility of body surface mapping.
Horwitz LI,
Harvard University, Cambridge, Massachusetts, USA.
Jpn Heart J 1996 Mar;37(2):203-14.
The absolute voltage and the lead vector of Wilson's central terminal.
Miyamoto N, Shimizu Y, Nishiyama G, Mashima S, Okamoto Y,
Department of Internal Medicine, Showa University Fujigaoka Hospital,
Yokohama, Japan.
Pol Arch Med Wewn 1996 Sep;96(3):234-41.
[Use of body surface heart potential mapping for registration of
electrical phenomenal in the atrium]
Kalka D, Jagielski J, Banasiak W, Sobieszczanska MA, Telichowski A, Fuglewicz A, Pierog M, Ponikowski P, Jagielski D, Kalka-Gebala R, Gajkowski E,
Katedra i Zaklad Patofizjologii Akademii Medycznej we Wroclawiu.
Circulation 1997 Jun 17;95(12):2668-76.
Body-surface QRST integral mapping. Arrhythmogenic righ ventricular
dysplasia versus idiopathic right ventricular tachycardia.
Peeters HA, SippensGroenewegen A, Schoonderwoerd BA, Wever EF, Grimbergen CA, Hauer RN, Rohles de Medina EO,
Department of Cardiology, University Hospital Utrecht, The
Netherlands.j.a.vangestel@hli.azu.nl
Circulation 1997 Dec 16;96(12):4314-8.
Mapping of ventricular repolarization potentials in patients with
arrhythmogenic right ventricular dysplasia: principal component analysis
of the ST-T waves.
De Ambroggi L, Aime E, Ceriotti C, Rovida M, Negroni S,
Division of Cardiology, Ospedale Clinicizzato San Donato, University of
Milan, Italy. Luigi.DeAmbroggi@unimi.it
J Electrocardiol 1998 Apr;31(2):71-82.
Lead system transformation of body surface map data.
Hoekema R, Uijen GJ, Stilli D, van Oosterom A,
Department of Cardiology, University Hospital Nijmegen, The Netherlands.
Pacing Clin Electrophysiol 1999 Jun;22(6 Pt 1):855-65.
Inverse relation of body-surface activation-recovery interval and recovery
time to activation time in normal subjects: stronger correlation and more
heterogeneous distribution in activation-recovery interval than in
recovery time.
Iwata K, Hirai M, Yoshida Y, Iino S, Kondo T, Shimizu A, Terazawa M, Akahoshi M, Inden Y, Sugino M, Tsuda M, Tomita Y, Saito H,
Division of Cardiology, Aichi Prefectural Owari Hospital, Japan.
J Electrocardiol 1999;32 Suppl:185-92.
Changes in autonomic activity and ventricular repolarization.
Shusterman V, Beigel A, Shah SI, Aysin B, Weiss R, Gottipaty VK, Schwartzman D, Anderson KP,
Cardiac Electrophysiology Program, Cardiovascular Institute, University of
Pittsburgh Health System, Pennsylvania 15213-2582, USA.
J Cardiovasc Electrophysiol 2000 Feb;11(2):160-7.
Signal-averaged isoharmonic body surface maps of patients with ischemic
cardiomyopathy.
Kavesh NG, Sarang SE, Gold MR,
University of Maryland, Baltimore, USA. nkavesh@pol.net
Int J Cardiol 2000 Jul 31;74(2-3):115-24.
Analysis of T wave changes by activation recovery interval in patients
with atrial septal defect.
Izumida N, Asano Y, Wakimoto H, Nishiyama M, Doi S, Tsuchiya S, Hosaki J, Kawano S, Sawanobori T, Hiraoka M,
Department of Pediatrics, School of Medicine, Tokyo Medical and Dental
University, 1 chome 5-45, Yushima, Bunkyo-ku, 113-8519, Tokyo, Japan.
nizumida.ped@med.tmd.ac.jp
Sb Lek 2001;102(3):369-74.
ECG body surface isointegral and isoarea maps (BSM) in 30 and 60-years-old
healthy humans.
Slavicek J, Kittnar O, Novak V, Trefny Z, Horacek BM,
Institute of Physiology, 1st Faculty of Medicine of Charles University,
Albertov 5, 128 00 Prague 2, Czech Republic. physiology@1fl.cuni.cz
Comput Biol Med 2003 May;33(3):227-37.
Changes of the beat amplitude power after partial left ventriculectomy and
coronary artery bypass grafting.
Ujiie T,
Tokai University, Cardiovascular Surgery and Transplantation, Bohsedai
Isehara, Kanagawa 259-1193, Japan. toujiie@attglobal.net
Med Biol Eng Comput 2003 Sep;41(5):536-42.
Gender differences in stability of the instantaneous patterns of body
surface potentials during ventricular repolarisation.
Corlan AD, Macfarlane PW, De Ambroggi L,
Cardiology Department, University Hospital of Bucharest, Academy of
Medical Sciences, Romania.